Abstract
Circulating cell-free DNA (cfDNA) is emerging as a potential tumor biomarker. CfDNA-based biomarkers may be applicable in tumors without an available non-invasive screening method among at-risk populations. Esophageal squamous cell carcinoma (ESCC) and residents of the Asian cancer belt are examples of those malignancies and populations. Previous epidemiological studies using cfDNA have pointed to the need for high volumes of good quality plasma (i.e., >1 mL plasma with 0 or 1 cycles of freeze-thaw) rather than archival serum, which is often the main available source of cfDNA in retrospective studies. Here, we have investigated the concordance of TP53 mutations in tumor tissue and cfDNA extracted from archival serum left-over from 42 cases and 39 matched controls (age, gender, residence) in a high-risk area of Northern Iran (Golestan). Deep sequencing of TP53 coding regions was complemented with a specialized variant caller (Needlestack). Overall, 23% to 31% of mutations were concordantly detected in tumor and serum cfDNA (based on two false discovery rate thresholds). Concordance was positively correlated with high cfDNA concentration, smoking history (p-value = 0.02) and mutations with a high potential of neoantigen formation (OR; 95%CI = 1.9 (1.11–3.29)), suggesting that tumor DNA release in the bloodstream might reflect the effects of immune and inflammatory context on tumor cell turnover. We identified TP53 mutations in five controls, one of whom was subsequently diagnosed with ESCC. Overall, the results showed that cfDNA mutations can be reliably identified by deep sequencing of archival serum, with a rate of success comparable to plasma. Nonetheless, 70% non-identifiable mutations among cancer patients and 12% mutation detection in controls are the main challenges in applying cfDNA to detect tumor-related variants when blindly targeting whole coding regions of the TP53 gene in ESCC.
Highlights
Circulating tumor DNA is but a tiny fraction of cell-free DNA (cfDNA) in blood circulation
A total of 42 Esophageal squamous cell carcinoma (ESCC) cases and 39 matched controls were initially included in this study
Using targeted deep sequencing of TP53 coding regions, we demonstrated a 24% to 36% concordance fraction between variants detected in cfDNA from archived serum and paired FFPE ESCC tumor tissue
Summary
Circulating tumor DNA is but a tiny fraction of cfDNA in blood circulation. CfDNA can be extracted from plasma or serum, plasma is widely recommended as the preferable standard media for studying cfDNA [1,2]. 5-year survival rates are low (5–15%) but significantly improve when diagnosis is made at early stages [5]. A 95% 5-year survival rate has been reported given early diagnosis [6]. Despite several ongoing efforts for early detection of ESCC in endemic areas [7], a minimally invasive and feasible approach has yet to be developed. Liquid biopsy and its cfDNA component have shown encouraging features in studying treatment response among ESCC patients [8]
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